Rosie the Rocketeer, Boeing’s anthropometric test device, claimed her spot once again in the commander’s seat inside the company’s CST-100 Starliner spacecraft for its second uncrewed Orbital Flight Test (OFT-2) for NASA’s Commercial Crew Program. Photo credit: Boeing
Rosie the Rocketeer, Boeing’s anthropometric test device, claimed her spot once again in the commander’s seat inside the company’s CST-100 Starliner spacecraft for its second uncrewed Orbital Flight Test (OFT-2) for NASA’s Commercial Crew Program.
During OFT-1, Rosie was outfitted with 15 sensors to collect data on what astronauts will experience during flights on Starliner. For OFT-2, spacecraft data capture ports previously connected to Rosie’s 15 sensors will be used to collect data from sensors placed along the seat pallet, which is the infrastructure that holds all the crew seats in place.
OFT-2 is scheduled to lift off at 2:53 p.m. ET Friday, July 30, from Space Launch Complex 41 at Cape Canaveral Space Force Station in Florida bound for the International Space Station. Starliner is expected to spend five to 10 days in orbit before undocking and returning to Earth, touching down on land in the western United States.
NASA astronauts Barry “Butch” Wilmore, left, Mike Fincke, right, and Nicole Mann will launch on Boeing’s Crew Flight Test to demonstrate the ability of the Atlas V rocket and Starliner spacecraft to safely carry astronauts to and from the space station as part of NASA’s Commercial Crew Program. Photo credit: United Launch Alliance
The United Launch Alliance (ULA) Atlas V rocket – set to help write a new chapter in human spaceflight by launching the first flight of the Boeing CST-100 Starliner spacecraft with astronauts to the International Space Station – has arrived at Cape Canaveral in Florida.
The United Launch Alliance Atlas V rocket arrives at Cape Canaveral in Florida. Photo credit: United Launch Alliance
The Atlas V will launch NASA astronauts Barry “Butch” Wilmore, Mike Fincke and Nicole Mann on Boeing’s Crew Flight Test (CFT) to demonstrate the ability of the Atlas V and Starliner to safely carry astronauts to and from the space station as part of the agency’s Commercial Crew Program. CFT is targeted for later this year after successful completion of Starliner’s second uncrewed mission, Orbital Flight Test-2, which is targeted to launch on July 30 from Space Launch Complex-41 at Cape Canaveral Space Force Station.
The rocket-delivery ship, called R/S RocketShip, transported the Atlas V first stage and the Dual Engine Centaur upper stage from ULA’s manufacturing facility in Decatur, Alabama, to Cape Canaveral Space Force Station. RocketShip set sail on June 14, arrived June 20, and the Atlas V was unloaded June 21.
Now at the Cape, the Atlas V will undergo receiving checks at the Atlas Spaceflight Operations Center and await the start of operations to prepare for the flight, which will send the three astronauts to the space station. The crewmates are working closely with Boeing to develop the new spacecraft systems, which will provide round-trip crew transportation services to the space station and low-Earth orbit.
The Boeing CST-100 Starliner spacecraft to be flown on Orbital Flight Test-2 (OFT-2) is seen in the Commercial Crew and Cargo Processing Facility at NASA’s Kennedy Space Center in Florida on June 2. Part of the agency’s Commercial Crew Program, OFT-2 is a critical developmental milestone on the company’s path to fly crew missions for NASA. Photo credit: Boeing
NASA and Boeing are continuing preparations ahead of Starliner’s second uncrewed flight to prove the system can safely carry astronauts to and from the International Space Station.
Teams inside the Starliner production factory at NASA’s Kennedy Space Center in Florida recently began fueling the Starliner crew module and service module in preparation for launch of Orbital Flight Test-2 (OFT-2) at 2:53 p.m. EDT on Friday, July 30. The fueling operations are expected to complete this week as teams load propellant inside the facility’s Hazardous Processing Area and perform final spacecraft checks.
In the weeks ahead, mission control teams in Florida and Texas will continue conducting simulated mission dress rehearsals for the uncrewed OFT-2 and follow-on crewed missions. Starliner’s landing and recovery teams also will perform an on-site checkout of one of the vehicle’s landing zones.
Boeing’s CST-100 Starliner spacecraft undergoes preparations for the company’s Orbital Flight Test-2 (OFT-2) in the Commercial Crew and Cargo Processing Facility at NASA’s Kennedy Space Center in Florida on April 28, 2021. Photo credit: Boeing
NASA and Boeing are targeting 2:53 pm EDT Friday, July 30, for the launch of the company’s Starliner uncrewed Orbital Flight Test-2 (OFT-2) to the International Space Station. The updated launch target is supported by the station’s visiting vehicle schedule, Starliner readiness, and the availability of the United Launch Alliance Atlas V rocket.
“NASA and Boeing have done an incredible amount of work to get to this point,” said Steve Stich, Commercial Crew Program manager. “Our teams are ready for this important mission due to the coordinated efforts of many, including United Launch Alliance, NASA’s Launch Services Program, and the U.S. Space Force, which enabled us to establish this launch opportunity. We are looking forward to a successful OFT-2 mission.”
Boeing recently completed end-to-end testing of Starliner’s fight software by flying a five-day simulated OFT-2 mission to the station. The company will continue supporting NASA’s post-test reviews. All actions recommended by the NASA-Boeing Joint Independent Review Team following Starliner’s uncrewed first flight test in December 2019 are complete and pending closure by NASA.
Boeing also will continue processing hardware for its first flight of astronauts – the Crew Flight Test – until mid-summer. OFT-2 launch activities, including loading cargo and fueling the spacecraft are scheduled to begin around this time.
A launch on July 30 would lead to rendezvous and docking with the space station on the evening of Saturday, July 31.
NASA’s Commercial Crew Program is working with industry through a public-private partnership to provide safe, reliable, and cost-effective transportation to and from the International Space Station, which will allow for additional research time and will increase the opportunity for discovery aboard humanity’s testbed for exploration. The space station remains the springboard to space exploration, including future missions to the Moon and eventually to Mars.
Technicians observe Boeing’s Starliner crew module being placed on top of the service module in the Commercial Crew and Cargo Processing Facility at NASA’s Kennedy Space Center in Florida on Jan. 14, 2021. The Starliner spacecraft is being prepared for Boeing’s second Orbital Flight Test (OFT-2). As part of the agency’s Commercial Crew Program, OFT-2 is a critical developmental milestone on the company’s path to fly crew missions for NASA. Credit: Boeing/John Proferes
NASA and Boeing are evaluating a new target launch date for the CST-100 Starliner’s Orbital Flight Test-2 (OFT-2) to the International Space Station after winter storms in Houston, and the recent replacement of avionics boxes, set the program back about two weeks. NASA also is weighing the volume of verification and validation analysis required prior to the test flight and the visiting vehicle schedule at the International Space Station.
Previously, the launch was targeted for no earlier than April 2.
An important factor the teams are evaluating is the visiting vehicle schedule at the International Space Station, which already has a scheduled crewed Soyuz launch and NASA’s SpaceX Crew-2 mission in April. Based on the current traffic at the space station, NASA does not anticipate that OFT-2 can be accomplished later in April. NASA and Boeing are working to find the earliest possible launch date.
“Boeing and NASA have worked extremely hard to support an early-April launch but we need to assess alternatives to ensure NASA’s safety work can be accomplished. NASA and Boeing know we fly together,” said Kathy Lueders, associate administrator, NASA’s Human Exploration and Operations Mission Directorate. “Boeing has done an incredible amount of work on Starliner to be ready for flight and we’ll provide an update soon on when we expect to launch the OFT-2 mission.”
“I’m grateful for the extraordinary work being undertaken by our NASA partners as we progress towards our OFT-2 mission,” said John Vollmer, vice president and program manager of Boeing’s Commercial Crew Program. “And I’m very proud of the Boeing Starliner team for working so diligently to get the hardware, software and certification closure products ready for flight. We’re committed to demonstrating the safety and quality of our spacecraft and progressing to our crewed test flight and the missions beyond.”
The company has been conducting dry-runs ahead of an end-to-end mission rehearsal that will allow the operations team to practice and observe integrated interactions through the whole mission profile, from launch to docking and undocking to landing. Additionally, power-on testing and checkouts of the OFT-2 vehicle, with new avionics boxes installed, have been completed successfully. Spacecraft fueling operations and the stacking of the launch vehicle are also ready to commence.
NASA and Boeing teams are adjusting the launch date of Orbital Flight Test-2 to allow more time for CST-100 Starliner spacecraft and hardware processing. Photo credit: Boeing/John Proferes
NASA and Boeing now are targeting no earlier than Friday, April 2, for launch of the agency’s Boeing Orbital Flight Test-2 to the International Space Station.
As preparations continue for the second uncrewed flight test, teams remain focused on the safety and quality of the CST-100 Starliner spacecraft and successful launch of the end-to-end test to prove the system is ready to begin flying astronauts to and from the space station as part of NASA’s Commercial Crew Program.
Teams are adjusting the launch date to allow more time for spacecraft and hardware processing. Ahead of final propellant loading, the company recently replaced avionics units affected as a result of a power surge due to a ground support equipment configuration issue during final checkouts.
“NASA continues to work alongside Boeing to prepare for this first mission of 2021,” said Steve Stich, manager of NASA’s Commercial Crew Program. “The Boeing and NASA teamwork on all aspects of flight preparation including final certification, hazard analysis, and software testing is extraordinary. Even though this uncrewed flight test to the International Space Station is a key milestone on the path to the first Starliner crewed mission planned for later this year, we will fly when we are ready.”
With formal software tests completed, Boeing is continuing with flight preparations. The company is ready to conduct an end-to-end mission rehearsal, using high-fidelity flight hardware and final flight software, to ensure the readiness of the team and combined systems.
Boeing continues to support NASA as it reviews flight readiness, and teams have completed about 95% of the recommendations identified by the joint NASA and Boeing Independent Review Team, formed following the anomalies during the company’s first uncrewed Orbital Flight Test in December 2019.
“We appreciate the significant work NASA is undertaking ahead of launch,” said John Vollmer, Starliner’s vice president and program manager at Boeing. “We’re fully engaged in the agency’s review process as a valuable investment of our time to ensure confidence in the spacecraft.”
Technicians observe Boeing’s Starliner crew module being placed on top of the service module in the Commercial Crew and Cargo Processing Facility at NASA’s Kennedy Space Center in Florida on Jan. 14, 2021. The Starliner spacecraft is being prepared for Boeing’s second Orbital Flight Test (OFT-2). As part of the agency’s Commercial Crew Program, OFT-2 is a critical developmental milestone on the company’s path to fly crew missions for NASA. Photo credit: Boeing/John Proferes
NASA and Boeing are targeting no earlier than Thursday, March 25, for the launch of Starliner’s second uncrewed flight test as part of the agency’s Commercial Crew Program. Boeing’s Orbital Flight Test-2, or OFT-2, is a critical developmental milestone on the company’s path to fly crew missions for NASA to the International Space Station.
The target launch date is enabled by an opening on the Eastern Range, the availability of the United Launch Alliance Atlas V rocket, steady progress on hardware and software, and an International Space Station docking opportunity.
Boeing recently mated the spacecraft’s reusable crew module on its brand new service module inside the Starliner production factory at Kennedy Space Center in Florida. Teams are working to complete outfitting of the vehicle’s interior before loading cargo and conducting final spacecraft checkouts.
Boeing also recently completed the formal requalification of Starliner’s OFT-2 flight software. Teams conducted a full software review and several series of tests to verify Starliner’s software meets design specifications. Boeing also will complete an end-to-end simulation of the OFT-2 test flight using flight hardware and final versions of Starliner’s flight software to model the vehicle’s expected behavior before flight.
The OFT-2 mission will launch Starliner on a United Launch Alliance Atlas V rocket from Space Launch Complex-41 at Cape Canaveral Space Force Station in Florida, dock to the space station and return to land in the western United States about a week later as part of an end-to-end test flight to prove the system is ready to fly crew.
Boeing’s Starliner crew module, with back shells installed, is inside the company’s Commercial Crew and Cargo Processing Facility at Kennedy Space Center on December 8, 2020, in preparation for the Orbital Flight Test-2 (OFT-2). During the OFT-2 mission, the uncrewed Starliner spacecraft will fly to the International Space Station for NASA’s Commercial Crew Program. Credit: Boeing/John Proferes
NASA and Boeing now are targeting March 29 for the launch of Starliner’s second uncrewed flight test to the International Space Station as part of the agency’s Commercial Crew Program. Orbital Flight Test-2 (OFT-2) is a critical developmental milestone on the company’s path toward flying crew missions for NASA.
For the OFT-2 mission, the CST-100 Starliner spacecraft will launch on a United Launch Alliance Atlas V rocket from Space Launch Complex-41 at Cape Canaveral Air Force Station in Florida, dock to the International Space Station and return to land in the western United States about a week later as part of an end-to-end test to prove the system is ready to fly crew.
The OFT-2 Starliner spacecraft is nearing final assembly inside the company’s Commercial Crew and Cargo Processing Facility at NASA’s Kennedy Space Center in Florida. The vehicle’s reusable crew module has been powered up and final checkouts of the avionics, power and propulsion systems are nearing completion. The spacecraft’s parachutes, landing airbags, base heat shield, and its back shells are installed signifying the completion of the vehicle build phase. In the coming weeks, teams will load the crew module with cargo, including Rosie the Rocketeer, and weigh the vehicle before mating it to its service module, which is already complete.
In parallel, Boeing technicians continue to refurbish the crew module flown on Starliner’s first Orbital Flight Test while also building a brand-new service module for NASA’s Boeing Crew Flight Test (CFT), which is now targeting launch in summer 2021, following a successful OFT-2 mission.
NASA astronauts Barry “Butch” Wilmore, Mike Fincke, and Nicole Mann continue to train for CFT, the inaugural crewed flight of the Starliner spacecraft. After the completion of both test flights, NASA astronauts Sunita Williams,Josh Cassada and Jeanette Epps will launch on the Starliner-1 mission, the first of six crew rotation missions NASA and Boeing will fly as part of the agency’s Commercial Crew Program.
Boeing’s CST-100 Starliner’s three main parachutes slow the test article to a safe and soft landing during the final balloon drop parachute test Sept. 19, 2020, at White Sands, New Mexico. Credit: Boeing
NASA and Boeing have completed Starliner’s last parachute balloon drop test ending a reliability campaign that will help strengthen the spacecraft’s landing system ahead of crewed flights to and from the International Space Station.
The campaign, developed by both Boeing and NASA, used six balloon drop tests of a Starliner test article to gather supplemental performance data on the spacecraft’s parachutes and landing system. Each drop test focused on a different set of adverse conditions and used pre-flown parachutes to evaluate reusability margins for future missions.
Starliner is the first American-made orbital crew capsule to land on land. The spacecraft uses a series of parachutes and airbags that deploy at specific altitudes allowing Starliner to touch down gently in the desert of the western United States. NASA also will use the data gathered from the parachute testing to model Starliner parachute performance in different mission scenarios.
For the final test, a high-altitude balloon provided by Near Space Corporation lifted the Starliner test article 35,000 feet above the New Mexico desert. Equipped with reused parachutes, Starliner’s landing system successfully executed an unlikely re-entry scenario simulating two separate faults.
NASA astronauts Nicole Mann and Barry “Butch” Wilmore and Boeing astronaut Chris Ferguson review International Space Station training at NASA’s Johnson Space Center in Houston, Texas, in December 2018. Photo credit: Boeing
Veteran NASA astronaut Barry “Butch” Wilmore will join astronauts Mike Fincke and Nicole Mann for NASA’s Boeing Crew Flight Test, the inaugural crewed flight of the CST-100 Starliner launching to the International Space Station in 2021.
Wilmore will take the place of Boeing astronaut Chris Ferguson on the flight test as part of NASA’s Commercial Crew Program. Ferguson decided not to fly for personal reasons.
Wilmore has been training side-by-side with the crew since being named the sole backup for all flight positions in July 2018. He now will shift his focus specifically to the spacecraft commander’s duties in preparation for the flight to the space station. The flight is designed to test the end-to-end capabilities of the new Starliner system.
Expedition 42 Commander Barry “Butch” Wilmore takes a self-portrait with food packages planned for his Thanksgiving meal in November 2014 aboard the International Space Station. Photo credit: NASA/Barry Wilmore
Wilmore has spent a total of 178 days in space over the course of two missions. In 2009, he served as the pilot of space shuttle Atlantis on STS-129, helping to deliver 14 tons of spare parts for the space station. In 2014, he returned to the space station via a Russian Soyuz spacecraft for a 167-day mission, during which he performed four spacewalks.
The development of a safe, reliable and cost-effective solution for crew transportation services to and from the International Space Station remains a priority for NASA and Boeing, allowing the on-orbit research facility to continue to fulfill its promise as a world-class laboratory.
NASA’s Commercial Crew Program is working with the American aerospace industry as companies develop and operate a new generation of spacecraft and launch systems capable of carrying crews to low-Earth orbit and to the space station. Commercial transportation to and from the station will provide expanded utility, additional research time and broader opportunities for discovery on the orbital outpost.
